yosys/passes/opt/opt_muxtree.cc

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/*
* yosys -- Yosys Open SYnthesis Suite
*
* Copyright (C) 2012 Clifford Wolf <clifford@clifford.at>
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*
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* Permission to use, copy, modify, and/or distribute this software for any
* purpose with or without fee is hereby granted, provided that the above
* copyright notice and this permission notice appear in all copies.
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*
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* THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
* WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
* ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
* WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
* ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
* OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
*
*/
#include "kernel/register.h"
#include "kernel/sigtools.h"
#include "kernel/log.h"
#include "kernel/celltypes.h"
#include <stdlib.h>
#include <stdio.h>
#include <set>
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USING_YOSYS_NAMESPACE
PRIVATE_NAMESPACE_BEGIN
using RTLIL::id2cstr;
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struct OptMuxtreeWorker
{
RTLIL::Design *design;
RTLIL::Module *module;
SigMap assign_map;
int removed_count;
int glob_abort_cnt = 100000;
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struct bitinfo_t {
bool seen_non_mux;
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pool<int> mux_users;
pool<int> mux_drivers;
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};
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idict<SigBit> bit2num;
vector<bitinfo_t> bit2info;
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struct portinfo_t {
int ctrl_sig;
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pool<int> input_sigs;
pool<int> input_muxes;
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bool const_activated;
bool const_deactivated;
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bool enabled;
};
struct muxinfo_t {
RTLIL::Cell *cell;
vector<portinfo_t> ports;
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};
vector<muxinfo_t> mux2info;
vector<bool> root_muxes;
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vector<bool> root_enable_muxes;
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pool<int> root_mux_rerun;
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OptMuxtreeWorker(RTLIL::Design *design, RTLIL::Module *module) :
design(design), module(module), assign_map(module), removed_count(0)
{
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log("Running muxtree optimizer on module %s..\n", module->name.c_str());
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log(" Creating internal representation of mux trees.\n");
// Populate bit2info[]:
// .seen_non_mux
// .mux_users
// .mux_drivers
// Populate mux2info[].ports[]:
// .ctrl_sig
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// .input_sigs
// .const_activated
// .const_deactivated
for (auto cell : module->cells())
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{
if (cell->type.in(ID($mux), ID($pmux)))
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{
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RTLIL::SigSpec sig_a = cell->getPort(ID::A);
RTLIL::SigSpec sig_b = cell->getPort(ID::B);
RTLIL::SigSpec sig_s = cell->getPort(ID::S);
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RTLIL::SigSpec sig_y = cell->getPort(ID::Y);
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muxinfo_t muxinfo;
muxinfo.cell = cell;
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for (int i = 0; i < GetSize(sig_s); i++) {
RTLIL::SigSpec sig = sig_b.extract(i*GetSize(sig_a), GetSize(sig_a));
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RTLIL::SigSpec ctrl_sig = assign_map(sig_s.extract(i, 1));
portinfo_t portinfo;
portinfo.ctrl_sig = sig2bits(ctrl_sig, false).front();
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for (int idx : sig2bits(sig)) {
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bit2info[idx].mux_users.insert(GetSize(mux2info));
portinfo.input_sigs.insert(idx);
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}
portinfo.const_activated = ctrl_sig.is_fully_const() && ctrl_sig.as_bool();
portinfo.const_deactivated = ctrl_sig.is_fully_const() && !ctrl_sig.as_bool();
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portinfo.enabled = false;
muxinfo.ports.push_back(portinfo);
}
portinfo_t portinfo;
for (int idx : sig2bits(sig_a)) {
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bit2info[idx].mux_users.insert(GetSize(mux2info));
portinfo.input_sigs.insert(idx);
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}
portinfo.ctrl_sig = -1;
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portinfo.const_activated = false;
portinfo.const_deactivated = false;
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portinfo.enabled = false;
muxinfo.ports.push_back(portinfo);
for (int idx : sig2bits(sig_y))
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bit2info[idx].mux_drivers.insert(GetSize(mux2info));
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for (int idx : sig2bits(sig_s))
bit2info[idx].seen_non_mux = true;
mux2info.push_back(muxinfo);
}
else
{
for (auto &it : cell->connections()) {
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for (int idx : sig2bits(it.second))
bit2info[idx].seen_non_mux = true;
}
}
}
for (auto wire : module->wires()) {
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if (wire->port_output || wire->get_bool_attribute(ID::keep))
for (int idx : sig2bits(RTLIL::SigSpec(wire)))
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bit2info[idx].seen_non_mux = true;
}
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if (mux2info.empty()) {
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log(" No muxes found in this module.\n");
return;
}
// Populate mux2info[].ports[]:
// .input_muxes
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for (int i = 0; i < GetSize(bit2info); i++)
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for (int j : bit2info[i].mux_users)
for (auto &p : mux2info[j].ports) {
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if (p.input_sigs.count(i))
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for (int k : bit2info[i].mux_drivers)
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p.input_muxes.insert(k);
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}
log(" Evaluating internal representation of mux trees.\n");
dict<int, pool<int>> mux_to_users;
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root_muxes.resize(GetSize(mux2info));
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root_enable_muxes.resize(GetSize(mux2info));
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for (auto &bi : bit2info) {
for (int i : bi.mux_drivers)
for (int j : bi.mux_users)
mux_to_users[i].insert(j);
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if (!bi.seen_non_mux)
continue;
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for (int mux_idx : bi.mux_drivers) {
root_muxes.at(mux_idx) = true;
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root_enable_muxes.at(mux_idx) = true;
}
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}
for (auto &it : mux_to_users)
if (GetSize(it.second) > 1)
root_muxes.at(it.first) = true;
for (int mux_idx = 0; mux_idx < GetSize(root_muxes); mux_idx++)
if (root_muxes.at(mux_idx)) {
log_debug(" Root of a mux tree: %s%s\n", log_id(mux2info[mux_idx].cell), root_enable_muxes.at(mux_idx) ? " (pure)" : "");
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root_mux_rerun.erase(mux_idx);
eval_root_mux(mux_idx);
if (glob_abort_cnt == 0) {
log(" Giving up (too many iterations)\n");
return;
}
}
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while (!root_mux_rerun.empty()) {
int mux_idx = *root_mux_rerun.begin();
log_debug(" Root of a mux tree: %s (rerun as non-pure)\n", log_id(mux2info[mux_idx].cell));
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log_assert(root_enable_muxes.at(mux_idx));
root_mux_rerun.erase(mux_idx);
eval_root_mux(mux_idx);
if (glob_abort_cnt == 0) {
log(" Giving up (too many iterations)\n");
return;
}
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}
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log(" Analyzing evaluation results.\n");
log_assert(glob_abort_cnt > 0);
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for (auto &mi : mux2info)
{
vector<int> live_ports;
for (int port_idx = 0; port_idx < GetSize(mi.ports); port_idx++) {
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portinfo_t &pi = mi.ports[port_idx];
if (pi.enabled) {
live_ports.push_back(port_idx);
} else {
log(" dead port %d/%d on %s %s.\n", port_idx+1, GetSize(mi.ports),
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mi.cell->type.c_str(), mi.cell->name.c_str());
removed_count++;
}
}
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if (GetSize(live_ports) == GetSize(mi.ports))
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continue;
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if (live_ports.empty()) {
module->remove(mi.cell);
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continue;
}
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RTLIL::SigSpec sig_a = mi.cell->getPort(ID::A);
RTLIL::SigSpec sig_b = mi.cell->getPort(ID::B);
RTLIL::SigSpec sig_s = mi.cell->getPort(ID::S);
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RTLIL::SigSpec sig_y = mi.cell->getPort(ID::Y);
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RTLIL::SigSpec sig_ports = sig_b;
sig_ports.append(sig_a);
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if (GetSize(live_ports) == 1)
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{
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RTLIL::SigSpec sig_in = sig_ports.extract(live_ports[0]*GetSize(sig_a), GetSize(sig_a));
module->connect(RTLIL::SigSig(sig_y, sig_in));
module->remove(mi.cell);
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}
else
{
RTLIL::SigSpec new_sig_a, new_sig_b, new_sig_s;
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for (int i = 0; i < GetSize(live_ports); i++) {
RTLIL::SigSpec sig_in = sig_ports.extract(live_ports[i]*GetSize(sig_a), GetSize(sig_a));
if (i == GetSize(live_ports)-1) {
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new_sig_a = sig_in;
} else {
new_sig_b.append(sig_in);
new_sig_s.append(sig_s.extract(live_ports[i], 1));
}
}
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mi.cell->setPort(ID::A, new_sig_a);
mi.cell->setPort(ID::B, new_sig_b);
mi.cell->setPort(ID::S, new_sig_s);
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if (GetSize(new_sig_s) == 1) {
mi.cell->type = ID($mux);
mi.cell->parameters.erase(ID::S_WIDTH);
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} else {
mi.cell->parameters[ID::S_WIDTH] = RTLIL::Const(GetSize(new_sig_s));
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}
}
}
}
vector<int> sig2bits(RTLIL::SigSpec sig, bool skip_non_wires = true)
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{
vector<int> results;
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assign_map.apply(sig);
for (auto &bit : sig)
if (bit.wire != NULL) {
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if (bit2num.count(bit) == 0) {
bitinfo_t info;
info.seen_non_mux = false;
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bit2num.expect(bit, GetSize(bit2info));
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bit2info.push_back(info);
}
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results.push_back(bit2num.at(bit));
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} else if (!skip_non_wires)
results.push_back(-1);
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return results;
}
struct knowledge_t
{
// database of known inactive signals
// the payload is a reference counter used to manage the
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// list. when it is non-zero the signal in known to be inactive
vector<int> known_inactive;
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// database of known active signals
vector<int> known_active;
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// this is just used to keep track of visited muxes in order to prohibit
// endless recursion in mux loops
vector<bool> visited_muxes;
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};
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void eval_mux_port(knowledge_t &knowledge, int mux_idx, int port_idx, bool do_replace_known, bool do_enable_ports, int abort_count)
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{
if (glob_abort_cnt == 0)
return;
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muxinfo_t &muxinfo = mux2info[mux_idx];
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if (do_enable_ports)
muxinfo.ports[port_idx].enabled = true;
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for (int i = 0; i < GetSize(muxinfo.ports); i++) {
if (i == port_idx)
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continue;
if (muxinfo.ports[i].ctrl_sig >= 0)
knowledge.known_inactive.at(muxinfo.ports[i].ctrl_sig)++;
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}
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if (port_idx < GetSize(muxinfo.ports)-1 && !muxinfo.ports[port_idx].const_activated)
knowledge.known_active.at(muxinfo.ports[port_idx].ctrl_sig)++;
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vector<int> parent_muxes;
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for (int m : muxinfo.ports[port_idx].input_muxes) {
if (knowledge.visited_muxes[m])
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continue;
knowledge.visited_muxes[m] = true;
parent_muxes.push_back(m);
}
for (int m : parent_muxes) {
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if (root_enable_muxes.at(m))
continue;
else if (root_muxes.at(m)) {
if (abort_count == 0) {
root_mux_rerun.insert(m);
root_enable_muxes.at(m) = true;
log_debug(" Removing pure flag from root mux %s.\n", log_id(mux2info[m].cell));
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} else
eval_mux(knowledge, m, false, do_enable_ports, abort_count - 1);
} else
eval_mux(knowledge, m, do_replace_known, do_enable_ports, abort_count);
if (glob_abort_cnt == 0)
return;
}
for (int m : parent_muxes)
knowledge.visited_muxes[m] = false;
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if (port_idx < GetSize(muxinfo.ports)-1 && !muxinfo.ports[port_idx].const_activated)
knowledge.known_active.at(muxinfo.ports[port_idx].ctrl_sig)--;
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for (int i = 0; i < GetSize(muxinfo.ports); i++) {
if (i == port_idx)
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continue;
if (muxinfo.ports[i].ctrl_sig >= 0)
knowledge.known_inactive.at(muxinfo.ports[i].ctrl_sig)--;
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}
}
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void replace_known(knowledge_t &knowledge, muxinfo_t &muxinfo, IdString portname)
{
SigSpec sig = muxinfo.cell->getPort(portname);
bool did_something = false;
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int width = 0;
idict<int> ctrl_bits;
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if (portname == ID::B)
width = GetSize(muxinfo.cell->getPort(ID::A));
for (int bit : sig2bits(muxinfo.cell->getPort(ID::S), false))
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ctrl_bits(bit);
int port_idx = 0, port_off = 0;
vector<int> bits = sig2bits(sig, false);
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for (int i = 0; i < GetSize(bits); i++) {
if (bits[i] < 0)
continue;
if (knowledge.known_inactive.at(bits[i])) {
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sig[i] = State::S0;
did_something = true;
} else
if (knowledge.known_active.at(bits[i])) {
sig[i] = State::S1;
did_something = true;
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}
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if (width) {
if (ctrl_bits.count(bits[i])) {
sig[i] = ctrl_bits.at(bits[i]) == port_idx ? State::S1 : State::S0;
did_something = true;
}
if (++port_off == width)
port_idx++, port_off=0;
} else {
if (ctrl_bits.count(bits[i])) {
sig[i] = State::S0;
did_something = true;
}
}
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}
if (did_something) {
log(" Replacing known input bits on port %s of cell %s: %s -> %s\n", log_id(portname),
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log_id(muxinfo.cell), log_signal(muxinfo.cell->getPort(portname)), log_signal(sig));
muxinfo.cell->setPort(portname, sig);
}
}
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void eval_mux(knowledge_t &knowledge, int mux_idx, bool do_replace_known, bool do_enable_ports, int abort_count)
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{
if (glob_abort_cnt == 0)
return;
glob_abort_cnt--;
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muxinfo_t &muxinfo = mux2info[mux_idx];
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// set input ports to constants if we find known active or inactive signals
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if (do_replace_known) {
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replace_known(knowledge, muxinfo, ID::A);
replace_known(knowledge, muxinfo, ID::B);
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}
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// if there is a constant activated port we just use it
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for (int port_idx = 0; port_idx < GetSize(muxinfo.ports); port_idx++)
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{
portinfo_t &portinfo = muxinfo.ports[port_idx];
if (portinfo.const_activated) {
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eval_mux_port(knowledge, mux_idx, port_idx, do_replace_known, do_enable_ports, abort_count);
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return;
}
}
// compare ports with known_active signals. if we find a match, only this
// port can be active. do not include the last port (its the default port
// that has no control signals).
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for (int port_idx = 0; port_idx < GetSize(muxinfo.ports)-1; port_idx++)
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{
portinfo_t &portinfo = muxinfo.ports[port_idx];
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if (portinfo.const_deactivated)
continue;
if (knowledge.known_active.at(portinfo.ctrl_sig)) {
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eval_mux_port(knowledge, mux_idx, port_idx, do_replace_known, do_enable_ports, abort_count);
return;
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}
}
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// eval all ports that could be activated (control signal is not in
// known_inactive or const_deactivated).
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for (int port_idx = 0; port_idx < GetSize(muxinfo.ports); port_idx++)
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{
portinfo_t &portinfo = muxinfo.ports[port_idx];
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if (portinfo.const_deactivated)
continue;
if (port_idx < GetSize(muxinfo.ports)-1)
if (knowledge.known_inactive.at(portinfo.ctrl_sig))
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continue;
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eval_mux_port(knowledge, mux_idx, port_idx, do_replace_known, do_enable_ports, abort_count);
if (glob_abort_cnt == 0)
return;
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}
}
void eval_root_mux(int mux_idx)
{
log_assert(glob_abort_cnt > 0);
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knowledge_t knowledge;
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knowledge.known_inactive.resize(GetSize(bit2info));
knowledge.known_active.resize(GetSize(bit2info));
knowledge.visited_muxes.resize(GetSize(mux2info));
knowledge.visited_muxes[mux_idx] = true;
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eval_mux(knowledge, mux_idx, true, root_enable_muxes.at(mux_idx), 3);
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}
};
struct OptMuxtreePass : public Pass {
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OptMuxtreePass() : Pass("opt_muxtree", "eliminate dead trees in multiplexer trees") { }
void help() YS_OVERRIDE
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{
// |---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|
log("\n");
log(" opt_muxtree [selection]\n");
log("\n");
log("This pass analyzes the control signals for the multiplexer trees in the design\n");
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log("and identifies inputs that can never be active. It then removes this dead\n");
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log("branches from the multiplexer trees.\n");
log("\n");
log("This pass only operates on completely selected modules without processes.\n");
log("\n");
}
void execute(vector<std::string> args, RTLIL::Design *design) YS_OVERRIDE
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{
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log_header(design, "Executing OPT_MUXTREE pass (detect dead branches in mux trees).\n");
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extra_args(args, 1, design);
int total_count = 0;
for (auto module : design->selected_whole_modules_warn()) {
if (module->has_processes_warn())
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continue;
OptMuxtreeWorker worker(design, module);
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total_count += worker.removed_count;
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}
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if (total_count)
design->scratchpad_set_bool("opt.did_something", true);
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log("Removed %d multiplexer ports.\n", total_count);
}
} OptMuxtreePass;
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PRIVATE_NAMESPACE_END